forked from M-Labs/nac3
update some previous work on top level with the clean up
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1bec6cf2db
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@ -180,6 +180,7 @@ impl<'a> TopLevelComposer<'a> {
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ancestors: vec![DefinitionId(index)],
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}
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}
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pub fn make_top_level_function_def(name: String, ty: Type) -> TopLevelDef {
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TopLevelDef::Function {
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name,
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@ -189,8 +190,8 @@ impl<'a> TopLevelComposer<'a> {
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}
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}
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// like to make and return a "primitive" symbol resolver? so that the symbol resolver can later
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// figure out primitive type definitions when passed a primitive type name
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// like to make and return a "primitive" symbol resolver? so that the symbol resolver
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// can later figure out primitive type definitions when passed a primitive type name
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pub fn get_primitives_definition(&self) -> Vec<(String, DefinitionId, Type)> {
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vec![
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("int32".into(), DefinitionId(0), self.primitives.int32),
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@ -220,8 +221,11 @@ impl<'a> TopLevelComposer<'a> {
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let mut ret_vector: Vec<(String, DefinitionId, Type)> = vec![(class_name.clone(), DefinitionId(class_def_id), ty)];
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// parse class def body and register class methods into the def list
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// NOTE: module's symbol resolver would not know the name of the class methods, thus cannot return their definition_id? so we have to manage it ourselves?
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// or do we return the class method list of (method_name, def_id, type) to application to be used to build symbol resolver? <- current implementation
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// NOTE: module's symbol resolver would not know the name of the class methods,
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// thus cannot return their definition_id? so we have to manage it ourselves?
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// or do we return the class method list of (method_name, def_id, type) to
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// application to be used to build symbol resolver? <- current implementation
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// FIXME: better do not return and let symbol resolver to manage the mangled name
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for b in body {
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if let ast::StmtKind::FunctionDef {name, ..} = &b.node {
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let fun_name = name_mangling(class_name.clone(), name);
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@ -243,18 +247,20 @@ impl<'a> TopLevelComposer<'a> {
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);
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ret_vector.push((fun_name, DefinitionId(def_id), ty));
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if name == "__init__" { // if it is the contructor, special handling is needed. In the above handling, we still add __init__ function to the class method
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// if it is the contructor, special handling is needed. In the above
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// handling, we still add __init__ function to the class method
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if name == "__init__" {
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self.definition_list.push(
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TopLevelDefInfo {
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def: TopLevelDef::Initializer {
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class_id: DefinitionId(class_def_id) // FIXME: None if have no parameter, Some if same as __init__?
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class_id: DefinitionId(class_def_id)
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},
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ty: self.primitives.none, // arbitary picked one
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ast: None, // it is inside the class def body statments
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resolver: Some(resolver)
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}
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)
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// FIXME: should we return this to the symbol resolver?
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// FIXME: should we return this to the symbol resolver?, should be yes
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}
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} else { } // else do nothing
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}
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@ -415,7 +421,8 @@ impl<'a> TopLevelComposer<'a> {
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}
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}
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// ----------- class method and field are analyzed by looking into the class body ast node -----------
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// class method and field are analyzed by
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// looking into the class body ast node
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for stmt in body {
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if let ast::StmtKind::FunctionDef {
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name,
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